ELECTRIC ENERGY STORAGE January 12-13, 13, 2011 Phoenix,, AZ Vincent Pusateri GS Battery (USA) Inc. Sr. Director, Business Development
The Simpsons Season 21 Episode 19 The Squirt and the Whale The Simpsons Go Off Grid
The Simpsons Season 21 Episode 19 The Squirt and the Whale The Simpsons Go Off Grid
The Simpsons Season 21 Episode 19 The Squirt and the Whale Without Battery Storage.
With Battery Storage Solution. The Simpsons Season 21 Episode 19 The Squirt and the Whale
Assessing Battery Storage Solutions for the Utility Distributed Energy Market I. Distributed Energy Storage System (DESS) II. Value Chain for DESS III. Comparing Battery Chemistries for DESS IV. Current DESS Applications V. Future Applications for DESS
In 1917 Genzo Shimadzu History of GS Yuasa In 1918 Shichizaemon Yuasa Founded Japan Storage Battery Co., Ltd. Shimadzu-san succeeded in developing the first lead acid battery in Japan. He is a holder of 178 patents in over 12 countries. Founded Yuasa Battery Manufacturing. During World War I, Yuasa-san expanded the company to provide batteries world wide. He developed the first EV batteries in Japan and introduced them to Ford, GM. 7
Automotive Batteries Major Products Advanced Batteries Automotive Motorcycle Satellite Aircraft EV/HEV Industrial Batteries B and Power Supply System Motor Power Water purification plant Backup Power Telecommunications Photovoltaic power generation systems
New Products Large-sized Lithium-ion Battery Ni-MH batteries HEV Advanced Lead Acid batteries
Distributed Energy Storage System (DESS) What is DESS? DESS-Distributed Energy Storage System -uses renewables to decentralize power generation and storage. DESS includes: o CES Community Energy Storage -small distributed energy storage unit connected to the secondary of transformers serving a few homes or commercial sites o RES Residential Energy Storage integrates small distributed energy storage unit into one residential site building
Distributed Energy Storage System (DESS) What is Smart Grid?
Distributed Energy Storage System (DESS) The Evolution of the Electric Utility System
Distributed Energy Storage System (DESS) The Evolution of the Electric Utility System Energy Storage is a central component......in the success of the Smart Grid!
Distributed Energy Storage System Local Benefits: 1.Backup power 2.Voltage correction (DESS) CES Benefits Grid Benefits: 3.Load Leveling at substation level 4.Power Factor Correction 5.Ancillary services T T T T Source: AEP
Distributed Energy Storage System Local Benefits: 1.Backup power 2.Renewable shifting 3.Demand response 4.Voltage correction (DESS) RES Benefits Grid Benefits: 5. Power factor correction 6. Some ancillary services Source: Silent Power Inc.
Value Chain for DESS Wind/PV Variability and Intermittency Variability: Caused by day/night cycles Predictable Slow Intermittency: Caused by cloud cover Somewhat unpredictable Fast Source: GE
Value Chain for DESS Residential PV & Energy Storage Peak Shifting Solar power and load peaks are shifted by ~5 hours. The greatest value to the utility may be aggregation of many residential systems. Source: Silent Power Inc.
Value Chain for DESS Benefits/Applications of Storage
Value Chain for DESS Distributed Storage Value Curve CES/RES
Value Chain for DESS Comparison RES vs CES REQUIREMENTS CES RES Source: Silent Power Inc.
Value Chain for DESS Utility Energy Storage Legislation Federal Legislation and residential
Value Chain for DESS Policy initiatives to integrate energy storage in grid US Congress has proposed Storage Technology of Renewable and Green Energy Act of 2009 to provide investment tax credits for storage projects.
Comparing Battery Chemistries for DESS Proven Reliable Technology Evaluate production batteries, not engineering samples only Manufacturer s history and financials Reliable test data to UL/IEEE Standards Optimization of Storage for DESS Applications Operate in a controlled environment Reliable and consistent charge controls Energy density/discharge rate Roundtrip efficiency Size and space Economics of battery storage compared to other solutions (flywheel, compressed air, etc.) Cost per Wh Cost per Cycle Maintenance and Service Life Life in years and cycles Replacement costs Safety and Environmental Impact Recyclable Non-hazardous materials No risk of fire or explosion
Comparing Battery Chemistries for DESS VRLA Mono-block Advanced VRLA Advanced VRLA Hybrid Lithium-ion Manganese mixed metal Nominal Capacity SLX246-12 246Ah/20HR SLE-1000 1000Ah/10HR SLC70-4V 80Ah/20HR LIM50E 50Ah/1HR Nominal Voltage 12V 2V 4V 3.7V / cell Cycle life VRLA: DOD 70% / 50% Li-ion: DOD 100% Design floating life at 25 o C / 77 o F Maximum Discharge rate Operation Temperature Round trip efficiency ----/Up to 1000 Up to 80% 2000 / 3000 Up to 80% 3000 / 4000 Up to 85% Over 3000 10 years 8+ years 10 years 10+ years 2C 0 to 40 o C 32 o to 104 o F 1C -10 o to 45 o C 14 o to 113 o F 1C -10 o to 45 o C 14 o to 113 o F 6C (60 seconds) 4C (Continuous) -10 o to 45 o C 14 o to 113 o F 95%+ Cost per Wh $0.14 $0.29 $0.92 $1.5 to $2.5 kwh Cost per Cycle $0.14 $0.10 $0.23 Less than $0.50 Specific energy (Wh/kg) 41.8 31.3 29.1 109
Current DESS Applications
Mesa Del Sol Current DESS Applications PV/Storage project Albuquerque, NM 15kW PV system with battery storage (3) 5kW Power Conditioning Systems with PV and battery inputs (2) of the PCS units have (32) SLC70-4 batteries at their input for a total of 20.48kWh of storage Mesa Del Sol, NM
Current DESS Applications TVA SMART EV Charging Site Knoxville, TN EV Charging site with 6 charge stations that are assisted by PV and battery storage. GSB s scope included providing: Knoxville, TN (3) 10kW battery charger/inverters (Silent Power OnDemand) 3 sets of (48) SLC70-4 batteries for a total of 960Ah (46.08kWh) of storage
Suniva Current DESS Applications PV/Battery System Norcross, GA 5kW PV System with battery storage GSB s scope includes providing: (1) 5kW battery charger/inverter (Silent Power OnDemand) (36) SLC70-4 batteries for a total of 240Ah (11.52kWh) of storage Norcross, GA
Current DESS Applications GS BATTERY (USA) Inc. PV/Battery System Roswell, GA 30kW PV system with battery storage (6) SMA 5kW PV Inverters (3) SMA Sunny Island Battery Charger/Inverters (24) SNS-3000 for a total of 3000Ah (144kWh) of storage Roswell, GA
CES Proposed CES Project Future Applications for DESS 30kW Community Energy Storage (CES) System. The proposed system consists of (3) parallel 10kW battery charge controllers/inverters each connected to a 48V battery rack of (24) SLE-1000 batteries for a total of 3000Ah (144kWh) of capacity. This system will have AMI (Advanced Metering Infrastructure) communication capability. All of this equipment will be enclosed in a weatherproof building with ventilation. Future Lithium design options are 30% smaller than VRLA
Future Applications for DESS Anatolia SolarSmart sm Homes Community High building efficiency measures 2kW PV systems Installing 15 RES and 3 CES units Firm renewables, reduce peak load and improve reliability Utility and customer portals will be used Price communicated to affect changes in customer usage Quantifying costs and benefits Sources: SMUD, Silent Power Inc.
Future Applications for DESS Source: Solar Power International
Future Applications for DESS
Future Applications for DESS
DESS Summary DESS will be necessary to support Renewable Generation due to variability, intermittency and existing generation capacity RES and CES storage solutions offer benefits to the utility and customer Guidelines need to be established when choosing a storage technology and Battery chemistry Storage Cost benefit analysis requires battery storage optimization to achieve lowest cost per Wh and cost per cycle Storage Reliability must include several criteria and not just battery design life EV respent batteries may not be a viable solution for DESS stationary storage for cost and reliability reasons
Vincent Pusateri GS Battery (USA) Inc. vincep@gsbattery.com